Acre Msc Part 5 27 Feb 2014
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Transcript of Acre Msc Part 5 27 Feb 2014
7/21/2019 Acre Msc Part 5 27 Feb 2014
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CHE 611 Advanced Chemical Reaction
Engineering
Dr. Muhammad Rashid UsmanInstitute of Chemical Engineering and Technology
University of the Punjab, Lahore 54590
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Catalyst preparation (1.0 wt% Pt/ -Al2O3)
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Catalyst characterization [4]
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Catalyst characterization(SEM for 1.0 wt% Pt/ -Al2O3)
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Catalyst characterization(TEM for 1.0 wt% Pt/ -Al2O3)
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Catalyst characterization(XRD for 1.0 wt% Pt/ -Al2O3)
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Laboratory experimental setup
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MCH Feed
Pump
Gas Cylinder
Pressure
Regulator
Dehydrogenation
Reactor
Three Zone
Furnace
Flow Control
Loop
Gaseous
Product
T em p er a t ur e
C on t r ol L
o o p
Accumulator
Liquid
Product
Calibration
Line
Water-Cooled
Condenser
Pressure Control
Loop
Knockout
Drum
Microfliter
Thermocouple
cw in
cw out
MCH Feed
Reservoir
Pressure
Gauge
Air or N2
H 2
N 2
A i r
Check
Valve
Safety
Valve
Balance
Laboratory experimental setup
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Laboratory experimental data
RUN
No. Fmch,0 Fhyd,0 Fhyd,0/Fmch,0 W/Fmch,0 (W/Fmch,0)
Target
T Tave Tave Xave
×10 –5
ml/min mol/s — (g·s)/mol (g·s)/mol °C °C K —
1 0.25 2.74E-04 8.3774 61875.8 0.6187584 380 377.72 650.87 0.119
2 0.125 1.37E-04 8.3774 123752 1.2375168 380 378.93 652.08 0.2005
3 0.5 5.47E-04 8.3774 30937.9 0.3093792 380 374.53 647.68 0.032
4 0.25 2.74E-04 8.3774 61875.8 0.6187584 380 378.73 651.88 0.063
5 0.25 0 0 61875.8 0.6187584 380 369.46 642.61 0.3405
6 0.125 0 0 123752 1.2375168 380 373.54 646.69 0.4895
7 0.5 0 0 30937.9 0.3093792 380 366.11 639.26 0.2135
8 0.063 0 0 245539 2.4553906 380 376.28 649.43 0.644
9 0.25 0 0 61875.8 0.6187584 430 412.57 685.72 0.6145
10 0.125 0 0 123752 1.2375168 430 418.44 691.59 0.855
11 0.5 0 0 30937.9 0.3093792 430 407.61 680.76 0.3845
12 0.063 0 0 245539 2.4553906 430 423.87 697.02 0.9745
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Continuous stirred tank reactor (CSTR)
We will discuss flow reactors only.
For a CSTR reactor system:
Where,
W= weight of catalyst, kg
F A0 = initial molar flowrate of component A, mol·s – 1
X = fractional conversion
( – r A
) = rate of chemical reaction, mol·kg-cat – 1·s – 1
)(0 A
A
A r X
F W
(17)
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The differential form of the one-dimensional pseudo-homogeneousmodel for the catalytic plug flow reactor is shown below:
Upon integration between the limits when X = 0 at = 0
and X = X at , we may write that the integral form
)(
0
A
A
A r
F
W
d
dX
0 A F
W
00 A A F
W
F
W
Differential and integral forms: Plugflow reactor
A X
A
A
A r
dX
F
W
00 )((19)
(18)
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Example 1: Fitting of experimental data
The experimental data given below for thedehydrogenation of methylcyclohexane (MCH)
is generated in a catalytic continuous stirred tank
reactor (CSTR) under integral conditions. Using power law kinetics for the irreversible reaction,
fit the experimental data and find the kinetic
parameters.
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Experimental data
T wall(oC)
Tave
(oC)
Tave
(K)
p
(bar)
Fmch
(mol/s)
Fhyd
(mol/s)
Fhyd /
Fmch
W /F mch(s.g/gmol)
ymch yhyd yimp Xe %X MCH
360.6 324.6 597.786 1.013 3.23E-05 2.72E-04 8.428431 62185.22 0.106 0.893 0.0011 0.992 93.676
360.6 321.7 594.864 1.013 6.46E-05 5.45E-04 8.428431 31092.61 0.106 0.893 0.0011 0.991 62.878360.6 338.1 611.2 1.013 1.62E-05 1.36E-04 8.428431 124370.4 0.106 0.893 0.0011 0.997 98.349
360.6 328.3 601.457 2 3.23E-05 3.41E-05 1.053554 62185.22 0.485 0.5105 0.0049 0.972 87.802
360.6 323 596.121 2 6.46E-05 6.81E-05 1.053554 31092.61 0.485 0.5105 0.0049 0.959 50.802
340.49 312.4 585.571 1.013 3.23E-05 2.72E-04 8.428431 62185.22 0.106 0.893 0.0011 0.982 78.1895
340.5 307.7 580.814 1.013 3.23E-05 3.41E-05 1.053554 62185.22 0.485 0.5105 0.0049 0.983 79.211
360.6 341.5 614.6 2 1.62E-05 1.70E-05 1.053554 124370.4 0.485 0.5105 0.0049 0.989 97.699
360.6 322.5 595.614 1.013 3.23E-05 3.41E-05 1.053554 62185.22 0.485 0.5105 0.0049 0.994 90.57360.6 337.2 610.329 1.013 1.62E-05 1.70E-05 1.053554 124370.4 0.485 0.5105 0.0049 0.998 99.217
380.44 342.4 615.5 1.013 3.23E-05 2.72E-04 8.428431 62185.22 0.106 0.893 0.0011 0.998 97.622
340.5 312 585.143 1.013 3.23E-05 2.72E-04 8.428431 62185.22 0.106 0.893 0.0011 0.981 78.37
340.5 308.2 581.386 1.013 3.23E-05 3.41E-05 1.053554 62185.22 0.485 0.5105 0.0049 0.983 77.549
360.6 320.1 593.214 1.013 6.46E-05 6.81E-05 1.053554 31092.61 0.485 0.5105 0.0049 0.993 55.609
340.5 307 580.121 1.013 3.23E-05 0 0 62185.22 0.99 0 0.01 0.985 77.653
360.6 318.6 591.793 1.013 6.46E-05 0 0 31092.61 0.99 0 0.01 0.994 54.001
360.6 322.2 595.321 1.013 3.23E-05 0 0 62185.22 0.99 0 0.01 0.995 87.951
360.6 336.4 609.507 1.013 1.62E-05 0 0 124370.4 0.99 0 0.01 0.998 98.507
380.44 339.8 612.979 1.013 3.23E-05 3.41E-05 1.053554 62185.22 0.485 0.5105 0.0049 0.998 97.371
380.44 339.5 612.614 1.013 3.23E-05 0 0 62185.22 0.99 0 0.01 0.999 96.204
340.69 317.1 590.271 1.013 1.62E-05 1.70E-05 1.053554 124370.4 0.485 0.5105 0.0049 0.9914 98.241
340.69 307.9 581.093 1.013 6.46E-05 6.81E-05 1.053554 31092.61 0.485 0.5105 0.0049 0.9828 44.015
319.76 290.1 563.279 1.013 6.46E-05 0 0 31092.61 0.99 0 0.01 0.9453 35.4
340.69 304.5 577.621 1.013 6.46E-05 0 0 31092.61 0.99 0 0.01 0.9817 44.3
Fitti f i t l d t d
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For the irreversible reaction, using power law of the form
n
A pk r )( (20)
Fitting of experimental data anddiscrimination among the various rate
models
(21)
(22)
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Mole fractions in the vapor phase(reaction mixture) at conversion X
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Non-linear regression
Examples of non-linear regression software tools:
Excel using the Solver tool.
Polymath (available in a CD with book of
Elements of Chemical Reaction Engineering,
by H. S. Fogler, 3rd ed., Prentice-Hall, 1999)
TableCurve 2D
SigmaPlot